As temperature goes up, the volume goes down
As temperature goes up density goes down. As volume goes up density goes down. As mass goes up (or increases) density also increases, or in other words, it freezes.
If pressure is held constant, volume and temperature are directly proportional. That is, as long as pressure is constant, if volume goes up so does temperature, if temperature goes down so does volume. This follows the model V1/T1=V2/T2, with V1 as initial volume, T1 as initial temperature, V2 as final volume, and T2 as final temperature.
The density of water changes at different temperatures. As temperature goes up, density goes down.
Temperature has direct relation with volume,so therefore an increase in temperature will result in the increase in volume.
If the temperature goes up so goes the pitch (frequency) for woodwinds, because the speed of sound goes up with temperature.
No. When you squeeze something, the volume decreases and the temperature goes up.
Volume and pressure vary indirectly, which means that when one goes up, the other goes down. If the pressure goes up, the volume goes down. If the volume goes up, the pressure goes down.Mathematically:P1V1 = P2V2The left side represents the beginning conditions, and the right side represents the pressure and temperature that have changed. Note that this formula assumes constant mass and temperature.
The pressure increases.
As temperature goes up density goes down. As volume goes up density goes down. As mass goes up (or increases) density also increases, or in other words, it freezes.
*if its volume is not limited by anything *when its temperature goes up and having above statement, it expands faster.
you heat the bottom of the flask. as temperature goes up, the volume will go down and push the egg out.
Speed goes up as temperature goes up.
If pressure is held constant, volume and temperature are directly proportional. That is, as long as pressure is constant, if volume goes up so does temperature, if temperature goes down so does volume. This follows the model V1/T1=V2/T2, with V1 as initial volume, T1 as initial temperature, V2 as final volume, and T2 as final temperature.
As temperature increases, pressure decreases. More specifically this is a gas law, and so as temperature goes up, the volume does too.
It is a direct relationship. When temperature goes up, energy goes up. When temperature goes does, energy goes down.
The density of water changes at different temperatures. As temperature goes up, density goes down.
The particles get closer together and their temperature increases.